Abstract

Al2O3:Cr3+ samples were synthesized via hydrothermal and microwave solvothermal methods and thermal decomposition of Cr3+ doped precursors. The sample characterizations were carried out by means of X-ray diffraction (XRD), scanning electron microscope (SEM), photoluminescence (PL) spectra and decay curves. XRD results indicated that Cr3+ doped samples were pure α-Al2O3 phase after being calcined at 1573 K. SEM results showed that the length and diameter of these Cr3+ doped alumina microfibers by hydrothermal route were about 2–5 μm and 100–300 nm, respectively; the obtained α-Al2O3 based powders via the microwave solvothermal method were microspheres with an average diameter about 1–2 μm. PL spectra showed that the Al2O3:Cr3+ samples presented a broad R band at 696 nm. It is shown that the 0.3 mol% of doping concentration of Cr3+ ions in α-Al2O3:Cr3+ is optimum. According to Dexter's theory, the critical distance between Cr3+ ions for energy transfer was determined to be 24 Å. It is found that the curve followed the single-exponential decay. Furthermore, the luminescence properties of the samples are also dependent on the morphology.

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